Contribution of “substrate shuttles” in the transport of extramitochondrial reducing equivalents by hepatic mitochondria from chronic alcohol-fed mice

Abstract

Effects of chronic alcohol treatment have been investigated on the rates of extramitochondrial NADH utilization by hepatic mitochondria in the presence or absence of “malate-aspartate shuttle,” oxidation of ethanol, α-glycerophosphate, and the activity of succinic dehydrogenase, along with the changes in the intrahepatic distribution of aspartate aminotransferase. The rates of blood alcohol clearance, hepatic alcohol dehydrogenase activity, and NADPH-dependent microsomal ethanol oxidation were also studied after different time intervals of alcohol withdrawal from chronically alcohol-fed animals. Hepatic mitochondria from chronically ethanol-fed mice (ethanol withheld 20 hr before sacrifice) utilized extramitochondrial NADH at rates 25–40% higher than the corresponding pair-fed controls. Addition of malateaspartate shuttle components to mitochondria from control and ethanol-fed groups resulted in 70 and 90% stimulation of NADH utilization, respectively. Mitochondria from both groups showed respiratory control upon ADP addition (state 3). Preincubation with amino-oxyacetate or hydrazine, which inhibit aspartate aminotransferase activity, prevented the stimulatory effect of malate-aspartate shuttle on NADH utilization. Mitochondria from livers of chronic ethanol-fed mice in the presence of reconstituted malate-aspartate shuttle showed 30–40% higher utilization of ethanol than the corresponding pair-fed control animals. The rate of mitochondrial α-glycerophosphate utilization by alcohol-fed animals was significantly higher than the control group. Succinic dehydrogenase activity measured as an index of mitochondrial permeability in the absence of Ca 2+ showed 85% higher activity in alcoholtreated group than the control animals. Chronic ethanol feeding for 4 weeks resulted in an increase in the activity of hepatic aspartate aminotransferase in the cytoplasmic fraction and a corresponding decrease in the mitochondrial fraction. Alcohol withdrawal from chronic alcohol-fed animals resulted in a decrease in the blood alcohol clearance rate after 10 days. Furthermore, a lack of correlation was observed between the rates of blood alcohol clearance and the activity of hepatic alcohol dehydrogenase on one hand, and between the rates of blood alcohol clearance and the microsomal ethanol-oxidizing activity on the other.